CN218043494U

CN218043494U - Noodle belt pressing and conveying device of deep-fried twisted dough sticks machine

Info

Publication number: CN218043494U
Application number: CN202121902310.4U
Authority: CN
Inventors: 王晓杰; 张军锋; 张龙灿; 万世豪; 孙战伟; 庞晓东
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-15
Filing date: 2021-08-15
Publication date: 2022-12-16
Anticipated expiration: 2031-08-15

Abstract

A noodle pressing and conveying device of a deep-fried twisted dough sticks machine belongs to a functional component of an automatic deep-fried twisted dough sticks machine, and comprises a noodle pressing and conveying transmission device, a noodle pressing and conveying installation frame, a sun shaft, a planetary roller transmission wheel, a planetary roller shaft frame, an elastic frame and a planetary roller system adjusting mechanism; the dough belt pressure feeding transmission device is arranged on the dough belt pressure feeding mounting frame, is connected with the power and transmission system, and can transmit the power or motion of the power and transmission system to the planetary roller system; the noodle pressing and conveying device has the characteristics that the noodle pressing and conveying function of the deep-fried dough stick frying machine can be realized, the thickness of the noodle is kept uniform, the taste of deep-fried dough sticks is improved, and the noodle pressing and conveying function can be realized while the noodle moves.

Description

Noodle belt pressing and conveying device of deep-fried twisted dough sticks machine

Technical Field

The invention belongs to the field of wheaten food machinery, and particularly relates to a noodle belt pressing and conveying device of an automatic fried dough stick frying machine, which can realize automatic fried dough sticks.

Background

The deep-fried dough sticks are one of common wheaten foods of Chinese people and are mostly used as breakfast foods; the edible fried bread sticks are various, and are single short and small, single flaky, cake-shaped and double overlapped; most commonly, the two are superimposed; the invention mainly aims at the double-superposed type to realize automatic frying; the existing frying method of double superposed deep-fried dough sticks (for avoiding confusion, hereinafter referred to as deep-fried dough sticks) comprises the steps of firstly adding water and additives into flour, wherein the additives generally comprise leavening agents, foaming agents and other additives pursuing special effects, then stirring and kneading dough, fermenting the dough after dough kneading, rolling the fermented dough into dough strips, cutting the dough strips into single strip-shaped dough blanks, then superposing the two strip-shaped dough blanks together, bonding the middle parts of the two strip-shaped dough blanks together to form the deep-fried dough sticks after pressing, putting the deep-fried dough sticks into a deep-fried pan for frying, putting the deep-fried dough sticks into the deep-fried dough pan, and stretching the deep-fried dough sticks by hands, so that the deep-fried dough sticks are easy to expand more fully, have good taste, and are easy to fry and scorch; after the twisted cruller blank is put into a hot oil pan, the twisted cruller blank is quickly expanded and can be fried uniformly only by frequently turning over; fishing out after frying, and draining redundant oil to finish frying the deep-fried dough sticks; in the whole frying process of the deep-fried dough sticks, the deep-fried dough sticks are required to be fried beside a hot frying pan, operators can be smoked and baked by intense heat, the working environment is severe, and the health of the operators can be adversely affected; on the other hand, the deep-fried dough sticks are more in procedure in the deep-fried dough sticks frying process, the temperature control of a frying pot is difficult, each procedure is improper to operate, the final deep-fried dough sticks are not ideal in frying, and the requirement on the technical comprehensiveness of operators is higher; moreover, repeated contact by human hands during frying of the deep-fried dough sticks causes disadvantages to the sanitation requirement on one hand and the operation process of the deep-fried dough sticks on the other hand.

Disclosure of Invention

Aiming at the problems in the existing deep-fried dough stick frying, the invention provides a full-automatic deep-fried dough stick frying machine which can realize the automatic blank making and the automatic frying of deep-fried dough sticks and does not need operators to contact with the deep-fried dough sticks or the deep-fried dough sticks in the whole process; its specific technical scheme is, an automatic deep-fried twisted dough sticks machine, its characterized in that: the deep-fried dough stick frying machine comprises a frame, a dough strip input device, a dough strip initial pressing device, a dough strip pressing and conveying device, a second conveying belt, a dough blank forming device, a dough blank bonding device, a third conveying belt, a deep-fried dough stick blank sending and stretching device, a deep-fried dough stick frying device, a deep-fried dough stick storage device, a control system, a power and transmission system and an outer cover; the rack is arranged on the installation foundation or the ground and is connected with the installation foundation or the ground; the surface belt input device is arranged on the rack and is fixedly connected with the rack; the power and transmission of the surface belt input device are connected with a power and transmission system; the dough belt initial pressing device is arranged on the rack, is fixedly connected with the rack, and is positioned at the tail end of the dough belt input device, namely one end of the output dough belt; the dough belt pressing and conveying device is arranged on the rack, is fixedly connected with the rack and is connected with the power and transmission system; the surface belt pressing and conveying device is positioned above the second conveying belt; the second conveying belt is arranged on the rack, is fixedly connected with the rack, is connected with the power and transmission system, is positioned below the flour belt pressing and conveying device, and is connected with the flour belt conveying device at the front end and the third conveying belt at the rear end; the dough forming device is arranged on the rack, is fixedly connected with the rack, is connected with the power and transmission system, and is positioned above the second conveying belt; the dough blank bonding device is arranged on the rack, is fixedly connected with the rack, is positioned above the third conveying belt and is connected with the power and transmission system; the third conveyer belt is arranged on the rack, is fixedly connected with the rack, is positioned below the dough blank bonding device and is connected with the power and transmission system; the dough stick blank sending-out and stretching device is arranged on the frame, is fixedly connected with the frame, is positioned at the rear end of the dough blank bonding device (the front end and the rear end in the section refer to the end entering along the running direction of the dough belt as the front end, and the output end as the rear end), and is connected with a power and transmission system; the deep-fried dough stick frying device is arranged on the rack, connected with the rack, positioned at the rear ends of the third conveying belt and the deep-fried dough stick blank sending and stretching device and connected with the control system; the fried bread stick storage device is arranged at the rear end of the fried bread stick frying device and is connected with the fried bread stick outlet end of the fried bread stick frying device, and redundant oil on the surface of the fried bread stick can be stored and controlled; the control system is arranged on the rack and connected with the rack; the control system comprises a main controller, a display unit, an information acquisition unit, an instruction output unit and a power control unit; the main controller is arranged in the control box and is connected with the display unit, the information acquisition unit, the instruction output unit and the power control unit; the display unit is arranged on the control box, and the display of the display unit is exposed on the outer surface of the control box and is connected with the main controller; the information acquisition unit is arranged in the control box and is connected with the main controller and an information acquisition element (such as a sensor) arranged on the functional component; the command output unit is arranged in the control box and is connected with the main controller and the power and transmission system; the power control unit is arranged in the control box, is connected with the power supply and the main controller, and is connected with a strong electric element of the power and transmission system; the power and transmission system is arranged on the frame and provides power and motion transmission for the executive element of the functional component; the outer cover is arranged on the rack, is connected with the rack, is positioned at the periphery of the functional component and can cover or cage the functional component; the functional components are one or more component combinations which are arranged in a flour belt input device, a flour belt initial pressing device, a flour belt pressing and conveying device, a second conveying belt, a flour blank forming device, a flour blank transferring and overlapping device, a flour blank bonding device, a third conveying belt, a deep-fried dough stick blank sending and stretching device, a deep-fried dough stick frying device, a deep-fried dough stick storage device, a control system and a power and transmission system on a rack and have certain functions.

In order to better realize the function of pressing and conveying the dough of the deep-fried twisted dough sticks machine and ensure that the dough belt is pressed while walking, the invention provides a dough belt pressing and conveying device capable of completing the function, and the specific technical scheme is that the dough belt pressing and conveying device of the deep-fried twisted dough sticks machine is characterized in that: the dough belt pressing and conveying device comprises a dough belt pressing and conveying transmission device, a dough belt pressing and conveying installation frame, a sun shaft, a planetary roller transmission wheel, a planetary roller shaft frame, an elastic frame and a planetary roller system adjusting mechanism; the dough belt pressure feeding transmission device is arranged on the dough belt pressure feeding mounting frame, is connected with the power and transmission system, and can transmit the power or movement of the power and transmission system to the planetary roller system; the surface belt pressure feeding mounting frame is mounted on the rack, is fixedly connected with the rack, and can be used for mounting and supporting the planetary roller system, the planetary roller system adjusting mechanism and the surface belt pressure feeding transmission device; the sun shaft, the planetary roller transmission wheel, the planetary roller and the planetary roller shaft form a planetary roller system; the sun shaft is arranged on the surface belt pressure feeding mounting frame, is connected with the surface belt pressure feeding mounting frame through a bearing and can rotate on the surface belt pressure feeding mounting frame, the end part of the sun shaft is connected with the surface belt pressure feeding transmission device, and the periphery of the sun shaft is connected with the planetary roller shaft frame and can drive the planetary roller shaft frame to rotate; the planetary roller transmission wheel is arranged at the end part of the planetary roller, is connected with the shaft end of the planetary roller, is connected with the dough belt pressure feeding transmission device and can rotate under the driving of the dough belt pressure feeding transmission device; a plurality of planetary roller driving wheels are arranged at the end part of each planetary roller and connected with the planetary rollers; the plurality of planetary roller transmission wheels are connected and linked by a planetary roller transmission belt; the planet roller is arranged on the planet roller shaft frame and is connected with the planet roller shaft frame through a bearing, can rotate on the planet roller shaft frame and can rotate around a sun shaft along with the planet roller shaft frame; the planetary rollers are uniformly arranged on the planetary roller shaft bracket and are positioned on the circumference taking the axis of the sun shaft as the center; the planet roller shaft carrier is arranged on the sun shaft and is fixedly connected with the sun shaft; the elastic frame is arranged on the surface belt pressure feeding mounting frame and is connected with the surface belt pressure feeding mounting frame, and the lower part of the elastic frame is in contact with the planetary roller transmission belt and can elastically tension the planetary roller transmission belt; the planetary roller system adjusting mechanism is arranged on the surface belt pressure feeding mounting frame, is connected with the surface belt pressure feeding mounting frame and is connected with the movable shaft bracket of the sun shaft through the transmission mechanism, and the movable shaft bracket capable of drawing the sun shaft can move on the surface belt pressure feeding mounting frame.

Further, the surface belt pressure transmission device is in gear transmission or chain transmission.

Further, the planetary roller transmission belt is a belt or a chain.

Furthermore, the planetary roller system adjusting mechanism comprises an adjusting hand wheel, an adjusting shaft bracket, a driving bevel gear, a driven bevel gear, a traction shaft, a tension spring and a movable shaft bracket; the adjusting hand wheel is arranged on the adjusting shaft, connected with the adjusting shaft and positioned at the end part of the adjusting shaft; the adjusting shaft is arranged on the adjusting shaft frame, is sleeved with the adjusting shaft frame and can rotate on the adjusting shaft frame; the adjusting shaft bracket is arranged on the flour belt pressure feeding mounting bracket and is connected with the flour belt pressure feeding mounting bracket; the driving bevel gear is arranged on the adjusting shaft and is fixedly connected with the adjusting shaft; the tooth part of the driving bevel gear is meshed with the tooth part of the driven bevel gear, so that the driven bevel gear can be driven to rotate; the driven bevel gear is arranged at the upper end of the traction shaft and is fixedly connected with the traction shaft; the tooth part of the driven bevel gear is meshed with the tooth part of the driving bevel gear; the traction shaft is arranged on the movable shaft bracket and is a screw rod with external threads on the periphery, the threads are matched with the threads on the movable shaft bracket and can be screwed with the movable shaft bracket, and the traction shaft can drive the movable shaft bracket to move up and down on the surface belt pressure feeding mounting bracket when rotating and is used for adjusting the distance between the planetary roller system and the surface belt; the upper end of the traction shaft is connected with a driven bevel gear; the tensioning spring is arranged on the traction shaft, is sleeved with the traction shaft and is a spiral compression spring; the movable shaft bracket is arranged on the flour belt pressure feeding mounting bracket, is embedded with the flour belt pressure feeding mounting bracket along the vertical direction and can move up and down in the embedded structure; the middle part of the movable shaft bracket is provided with a hole which is sleeved with the shaft end of the solar shaft (can be connected with the solar shaft through a bearing).

Advantageous effects

The invention has the advantages that the invention can realize the function of pressing and conveying the flour belt of the deep-fried twisted dough sticks machine, provide the flour belt supply flour blank forming device with accurate thickness, and realize that the flour belt is uniformly pressed in motion without accumulation and slippage.

Drawings

FIG. 1 is a schematic structural view of the exterior of a deep fryer;

FIG. 2 is a schematic view of a deep fryer with a portion of the housing removed;

FIG. 3 is a schematic view of the deep fryer with a portion of the casing removed;

FIG. 4 is a schematic structural view of the present invention;

FIG. 5 is a schematic structural view in another aspect of the present invention;

in the figure, 1, a dough flapping device, 2, a frame, 3, an observation window, 4, a fried dough stick storage device, 5, a fried dough stick frying device, 6, a control system, 7, an outer cover, 8, a second conveying belt, 9, a dough forming device, 10, a dough bonding device, 11, a frying pan, 12, an oil control device, 13, a fried dough stick supporting device, 14, a fried dough stick transferring and stretching device, 15, a power and transmission system, 16, a second dough flapping device, 17, an elastic bracket, 18, a dough strip pressing and conveying device, 19, a dough strip initial pressing device, 20, a dough strip input device, 21, an anti-sticking knife device, 22, a dough belt conveying and overlapping device, 23, a third conveying belt, 24, a second conveying belt motion control device, 25, a fried dough stick blank sending mechanism, 15-1, a dough belt pressure conveying transmission device, 15-2, a dough belt pressure conveying mounting frame, 15-3, a sun shaft, 15-4, a planetary roller transmission wheel, 15-5, a planetary roller, 15-6, a planetary roller shaft frame, 15-7, an elastic frame, 15-8, a planetary roller system adjusting mechanism, 15-9, a driven bevel gear, 15-10, a driving bevel gear, 15-11, an adjusting shaft frame, 15-12, an adjusting shaft, 15-13, a tensioning spring, 15-14 and a movable shaft frame.

Detailed Description

In order to better illustrate the technical solution of the present invention, the specific embodiment of the present invention will be further described with reference to the accompanying drawings, as shown in fig. 1-3, the frame 1 is installed on the installation base or the ground and is connected with the installation base or the ground; the dough belt input device 20 is arranged on the frame 1 and is fixedly connected with the frame 1; the power and transmission of the surface belt input device 20 are connected with a power and transmission system 15; the dough belt initial pressing device 19 is arranged on the frame 1, is fixedly connected with the frame 1 and is positioned at the tail end of the dough belt input device 20, namely one end of the output dough belt; the dough belt pressing and conveying device 18 is arranged on the frame 1, is fixedly connected with the frame 1 and is connected with the power and transmission system 15; the dough strip pressing and conveying device 18 is positioned above the second conveying belt 8; the second conveyer belt 8 is arranged on the frame 1, is fixedly connected with the frame 1, is connected with the power and transmission system 15, is positioned below the flour belt pressing and conveying device 18, and has the front end connected with the flour belt conveying device 20 and the rear end connected with the third conveyer belt 23; the dough forming device 9 is arranged on the frame 1, is fixedly connected with the frame 1, is connected with the power and transmission system 15 and is positioned above the second conveying belt 8; the dough blank bonding device 10 is arranged on the frame 1, is fixedly connected with the frame 1, is positioned above the third conveying belt 23 and is connected with the power and transmission system 15; the third conveyer belt 23 is arranged on the frame 1, is fixedly connected with the frame 1, is positioned below the dough blank bonding device 10, and is connected with the power and transmission system 15; the oil bar blank sending-out and stretching device 14 is arranged on the frame 1, is fixedly connected with the frame 1, is positioned at the rear end of the dough blank bonding device 10 and is connected with a power and transmission system 15; the deep-fried dough stick frying device 5 is arranged on the rack 1, is connected with the rack 1, is positioned at the rear end of the third conveyer belt 23 and the deep-fried dough stick blank sending and stretching device 14, and is connected with the control system 6; the fried bread stick storage device 4 is arranged at the rear end of the fried bread stick frying device 5 and is connected with the fried bread stick end of the fried bread stick frying device 5, and redundant oil on the surface of the fried bread stick can be stored and controlled to be dry; the control system 6 is arranged on the frame 1 and connected with the frame 1; the power and transmission system 15 is arranged on the frame 1 and provides power and motion transmission for the executive elements of the functional components; the outer cover 7 is arranged on the frame 1, is connected with the frame 1, is positioned at the periphery of the functional component and can cover or cage the functional component; the functional components are one or more component combinations which are arranged on the frame and have certain functions, such as a flour strip input device 20, a flour strip initial pressing device 19, a flour strip pressing and conveying device 18, a second conveying belt 8, a flour blank forming device 9, a flour blank bonding device 10, a third conveying belt 23, a deep-fried dough stick blank sending and stretching device 14, a deep-fried dough stick frying device 5, a deep-fried dough stick storage device 4, a control system 6 and a power and transmission system 15; the front end and the rear end are referred to herein as the entrance end and the exit end, respectively, based on the running direction of the surface belt.

When the flour applying device is used, a primarily processed flour belt is conveyed to the feeding end of the flour belt input device 20 from the previous working procedure, the power and transmission system 15 drives the flour belt input device 20 to move, the flour belt is conveyed to the flour belt primary pressing device 19, the flour flapping device 1 is arranged at the front end of the flour belt input device 20, and flour is uniformly scattered on the surface of the flour belt entering the flour belt input device 20; the thickness of the flour strip is controlled by the pressing of the flour strip initial pressing device 19; then the flour belt is continuously conveyed to the second conveying belt 8, and secondary pressing is carried out below the flour belt pressing and conveying device 18; the second conveying belt 8 continuously forwards the flour belts to enter a flour blank forming device 9, the flour belts are cut into strip-shaped flour blanks at the flour blank forming device 9, the two flour blanks are soaked with water and are overlapped together, then the flour blanks are conveyed to the position below a flour blank bonding device 10, and the two flour blanks are bonded together through the flour blank bonding device 10 to form the oil bar blanks; and the deep-fried dough sticks are conveyed to a third conveyor belt 23, the deep-fried dough sticks are conveyed to the position below a deep-fried dough stick blank conveying and stretching device 14 by the third conveyor belt 23, the deep-fried dough sticks are picked up and stretched by the deep-fried dough stick blank conveying and stretching device 14 and conveyed into a deep-fried dough stick blank conveying mechanism 25, the deep-fried dough sticks are turned over by the deep-fried dough stick blank conveying mechanism 25, the deep-fried dough sticks are conveyed into a deep-fried dough stick frying device 5, the deep-fried dough sticks are conveyed to a deep-fried dough stick discharging end of the deep-fried dough stick frying device 5 step by step and enter a deep-fried dough stick storage device 4, and redundant oil is controlled to be dry, so that the automatic deep-fried dough sticks are finished.

The dough belt pressing and conveying device selected in the embodiment comprises a dough belt pressing and conveying transmission device 15-1, a dough belt pressing and conveying mounting frame 15-2, a sun shaft 15-3, a planetary roller transmission wheel 15-4, planetary rollers 15-5, a planetary roller shaft frame 15-6, an elastic frame 15-7 and a planetary roller system adjusting mechanism 15-8; the dough belt pressure transmission device 15-1 is arranged on the dough belt pressure transmission mounting frame 15-2, is connected with the dough belt pressure transmission mounting frame 15-2 and is connected with the power and transmission system 15, and can transmit the power or motion of the power and transmission system 15 to the planetary roller system; the dough belt pressure feeding mounting frame 15-2 is mounted on the frame 1, is fixedly connected with the frame 1, and can be used for mounting and supporting the planetary roller system, the planetary roller system adjusting mechanism 15-8 and the dough belt pressure feeding transmission device 18; the sun shaft 15-3, the planetary roller transmission wheel 15-4, the planetary roller 15-5 and the planetary roller shaft bracket 15-6 are selected to form a planetary roller system; the sun shaft 15-3 is installed on the surface belt pressure feeding installation frame 15-2 and is connected with the surface belt pressure feeding installation frame 15-2 through a movable shaft bracket 15-14 and a bearing, the movable shaft bracket can move on the surface belt pressure feeding installation frame 15-2 along a certain track and can rotate on the surface belt pressure feeding installation frame 15-2, the end part of the movable shaft bracket is connected with a surface belt pressure feeding transmission device 15-1, the periphery of the movable shaft bracket is connected with a planet roller shaft bracket 15-6, and the planet roller shaft bracket 15-6 can be driven to rotate; the planetary roller transmission wheel 15-4 is arranged at the end part of the planetary roller 15-5, is connected with the shaft end of the planetary roller 15-5 and is connected with the dough belt pressure feeding transmission device 15-1, and can rotate under the driving of the dough belt pressure feeding transmission device 15-1; a plurality of planet roller driving wheels 15-4 are selected, are arranged at the end part of each planet roller 15-5 and are connected with the planet rollers 15-5; the plurality of planetary roller transmission wheels 15-4 are selected and connected and linked by a planetary roller transmission belt; the planetary roller 15-5 is arranged on the planetary roller shaft bracket 15-6 and is connected with the planetary roller shaft bracket 15-6 through a bearing, can rotate on the planetary roller shaft bracket 15-6 and can rotate around the sun shaft 15-3 along with the planetary roller shaft bracket 15-6; a plurality of planet rollers 15-5 are selected and uniformly arranged on the planet roller shaft bracket 15-6 and are positioned on the circumference taking the shaft axis of the sun shaft 15-3 as the center; the planetary roller shaft bracket 15-6 is arranged on the sun shaft 15-3 and is fixedly connected with the sun shaft 15-3; the elastic frame 15-7 is arranged on the dough belt pressure feeding mounting frame 15-2 and is connected with the dough belt pressure feeding mounting frame 15-2, and the lower part of the elastic frame 15-7 is selected to be in contact with the planetary roller transmission belt, so that the planetary roller transmission belt can be elastically tensioned; the planetary roller system adjusting mechanism 15-8 is arranged on the surface belt pressure feeding mounting rack 15-2, is connected with the surface belt pressure feeding mounting rack 15-2 and is connected with the movable shaft bracket of the sun shaft 15-3 through a transmission mechanism, and the movable shaft bracket 15-14 capable of drawing the sun shaft moves on the surface belt pressure feeding mounting rack 15-2; in the embodiment, the surface belt pressure feeding transmission device 15-1 is selected to be gear transmission or chain transmission; in the embodiment, the planetary roller transmission belt is a belt or a chain.

The planet roller system adjusting mechanism 15-8 selected in the embodiment comprises an adjusting hand wheel, an adjusting shaft 15-12, an adjusting shaft bracket 15-14, a driving bevel gear 15-10, a driven bevel gear 15-9, a traction shaft, a tensioning spring 15-13 and a movable shaft bracket 15-14; the adjusting hand wheel is arranged on the adjusting shaft 15-12, is connected with the adjusting shaft 15-12 and is positioned at the end part of the adjusting shaft 15-12; the adjusting shaft 15-12 is arranged on the adjusting shaft bracket 15-11, is sleeved with the adjusting shaft bracket 15-11 and can rotate on the adjusting shaft bracket 15-11; the adjusting shaft bracket 15-11 is arranged on the dough belt pressure feeding mounting bracket 15-2 and is connected with the dough belt pressure feeding mounting bracket 15-2; the driving bevel gear 15-10 is arranged on an adjusting shaft 15-11 and is fixedly connected with the adjusting shaft 15-11; the tooth part of the driving bevel gear 15-10 is meshed with the tooth part of the driven bevel gear 15-9, so that the driven bevel gear 15-9 can be driven to rotate; the driven bevel gear 15-9 is arranged at the upper end of the traction shaft and is fixedly connected with the traction shaft, or the driven bevel gear 15-9 and the traction shaft can be integrated; meshing the tooth part of the driven bevel gear 15-9 with the tooth part of the driving bevel gear 15-10; the traction shaft is arranged on the movable shaft bracket 15-14 and is a screw rod with external threads on the periphery, the threads are matched with the threads on the movable shaft bracket 15-14 and can be screwed with the movable shaft bracket 15-14, and the traction shaft can drive the movable shaft bracket 15-14 to move up and down on the dough belt pressure feeding mounting bracket 15-2 when rotating and is used for adjusting the distance between the planetary roller system and the dough belt; the upper end of the traction shaft is connected with a driven bevel gear 15-9; the tension springs 15-13 are arranged on the traction shaft and sleeved with the traction shaft to form spiral compression springs; the movable shaft brackets 15-14 are arranged on the surface belt pressure feeding mounting bracket 15-2, in the embodiment, the movable shaft brackets are symmetrically arranged at two ends of the sun shaft 15-3, are embedded with the surface belt pressure feeding mounting bracket 15-2 along the vertical direction and can move up and down in an embedded structure; the middle part of the movable shaft bracket 15-14 is provided with a hole which is sleeved with the shaft end of the solar shaft 15-3 and can be connected with the solar shaft through a bearing.

When the pressing device is applied, the surface belt runs on the upper surface of the second conveying belt 8, the planetary roller 15-5 is driven by the planetary roller driving wheel 15-4 to rotate, when the lower part of the planetary roller system rotates to be in contact with the surface belt, the surface belt is pressed, meanwhile, as the planetary roller 15-5 rotates around the sun shaft 15-3, the pressing motion of the planetary roller 15-5 and the surface belt becomes composite motion, and the surface belt can be pressed better and conveyed forwards to be synchronous with the second conveying belt 8; when the distance between the planetary roller system and the surface belt needs to be adjusted, a hand wheel arranged on an adjusting shaft 15-12 is rotated to drive the adjusting shaft 15-12 to rotate, two driving bevel gears 15-10 arranged on the adjusting shaft 15-12 are driven to rotate, two driven bevel gears 15-9 are driven to rotate, and a traction shaft is driven to rotate, and due to the action of peripheral threads of the traction shaft, a movable shaft bracket 15-14 can be pulled to move up and down on a pressure feeding mounting rack 15-2, so that the distance between the planetary roller system, namely the lowest planetary roller 15-5, and the surface belt is adjusted.

Claims

1. The utility model provides a deep-fried twisted dough sticks machine's face area suppression conveyor which characterized in that: the dough belt pressing and conveying device comprises a dough belt pressing and conveying transmission device, a dough belt pressing and conveying installation frame, a sun shaft, a planetary roller transmission wheel, a planetary roller shaft frame, an elastic frame and a planetary roller system adjusting mechanism; the dough belt pressure feeding transmission device is arranged on the dough belt pressure feeding mounting frame, is connected with the power and transmission system, and can transmit the power or motion of the power and transmission system to the planetary roller system; the surface belt pressure feeding mounting frame is mounted on the rack, is fixedly connected with the rack, and can be used for mounting and supporting the planetary roller system, the planetary roller system adjusting mechanism and the surface belt pressure feeding transmission device; the sun shaft, the planetary roller transmission wheel, the planetary roller and the planetary roller shaft form a planetary roller system; the sun shaft is arranged on the surface belt pressure feeding mounting frame, is connected with the surface belt pressure feeding mounting frame through a bearing and can rotate on the surface belt pressure feeding mounting frame, the end part of the sun shaft is connected with the surface belt pressure feeding transmission device, the periphery of the sun shaft is connected with the planetary roller shaft frame, and the planetary roller shaft frame can be driven to rotate; the planetary roller transmission wheel is arranged at the end part of the planetary roller, is connected with the shaft end of the planetary roller, is connected with the dough belt pressure feeding transmission device and can rotate under the driving of the dough belt pressure feeding transmission device; a plurality of planetary roller driving wheels are arranged at the end part of each planetary roller and connected with the planetary rollers; the plurality of planetary roller transmission wheels are connected and linked by a planetary roller transmission belt; the planet roller is arranged on the planet roller shaft frame and is connected with the planet roller shaft frame through a bearing, can rotate on the planet roller shaft frame and can rotate around a sun shaft along with the planet roller shaft frame; the planetary rollers are uniformly arranged on the planetary roller shaft frame and are positioned on the circumference taking the axis of the solar shaft as the center; the planet roller shaft carrier is arranged on the sun shaft and is fixedly connected with the sun shaft; the elastic frame is arranged on the surface belt pressure feeding mounting frame and is connected with the surface belt pressure feeding mounting frame, and the lower part of the elastic frame is in contact with the planetary roller transmission belt and can elastically tension the planetary roller transmission belt; the planetary roller system adjusting mechanism is arranged on the surface belt pressure feeding mounting frame, is connected with the surface belt pressure feeding mounting frame and is connected with the movable shaft bracket of the solar shaft through the transmission mechanism, and the movable shaft bracket of the solar shaft can be pulled to move on the surface belt pressure feeding mounting frame.

2. A noodle press conveyor according to claim 1, wherein: the surface belt pressure transmission device is in gear transmission or chain transmission.

3. A noodle press conveyor according to claim 1, wherein: the planetary roller transmission belt is a belt or a chain.